CN207535216U - In-molded mold and its ejecting mechanism - Google Patents

Abstract

The utility model discloses a kind of in-molded mold and its ejecting mechanism, ejecting mechanism includes fixture thimble, mouth of a river thimble, auxiliary thimble, elastic component and top plate.Top plate is located in ejection space and the first top plate and the second top plate comprising stacking, second top plate is provided with limit space, mouth of a river thimble and auxiliary thimble are loaded on top plate, the second end of mouth of a river thimble extends to forming cavity and opposite with the mouth of a river, auxiliary thimble extends to forming cavity and is set with mouth of a river thimble neighbour, loaded in limit space, the second end of fixture thimble extends at interlocking sliding block the first end of fixture thimble, and elastic component perseverance has the trend for driving top plate toward sliding at Bottom clamp plate；During product, fixture and interlocking sliding block ejection mavable module core, top plate obtains retrogressing elastic force due to elastic component generates flexible deformation, top plate drives mouth of a river thimble in the case where retreating elastic force effect and thimble is assisted mutually to be retreated in fixture thimble and be detached from the contact with long handle, fixture is allowed to be removed from interlocking sliding block, prevents product and is scratched in knockout course.

Description

In-molded mold and its ejecting mechanism

Technical field

The utility model is related in a kind of injection mold more particularly to a kind of mould for product of the molding with long/short handle Molding die and its ejecting mechanism.

Background technology

In-molded is exactly that the good mold insert of pre-production is put into the forming cavity of injection mold, then again in forming cavity The liquid sizing material melted is injected, so as to the technology that solidification sizing material after cooling is made to be combined into one with the good mold insert of pre-production.

Wherein, as shown in Figure 1, for the product 200 with long/short handle, it includes the good short handles 210 of pre-production With the long handle 220 of rear injection forming, since the surface of product 200 there cannot be the requirement of thimble print, cause in existing injection mold Liftout attachment during ejecting product there are the defects of product adhesion dynamic model, so as to can not normally produce.To prevent product Adhere to dynamic model in knockout course, therefore the new thimble that the liftout attachment in existing injection mold is added, but the thimble newly increased Because being in sustained height after ejecting product with fixture thimble and mouth of a river thimble, therefore when taking product away together with fixture, newly The thimble of increasing scratches the surface of product, product surface is caused to scratch, fraction defective 100 percent.

Therefore, it is badly in need of wanting a kind of in-molded mold for preventing product surface from scratching and its ejecting mechanism above-mentioned to overcome Defect.

Utility model content

The one of the utility model is designed to provide a kind of ejection for the in-molded mold for preventing product surface from scratching Mechanism.

The another object of the utility model is to provide a kind of in-molded mold for preventing product surface from scratching.

To achieve these goals, the ejecting mechanism of the in-molded mold of the utility model has length for being molded The product of handle.The product includes the long handle of prefabricated short handle and rear injection forming, and the first end of the short handle is along the product Length direction stretches out the long handle.The in-molded mold includes cover half, fixture and dynamic model, the dynamic model along molding direction according to It is secondary comprising the Bottom clamp plate being layered on top of each other, dynamic model cushion block, mavable module core and along be parallel to molding direction in the mavable module core or The interlocking sliding block being moved away from from the mavable module core, the dynamic model cushion block is supported between the Bottom clamp plate and mavable module core, described Dynamic model cushion block, Bottom clamp plate and mavable module core surround ejection space jointly, the first end of short handle described in the clamp and along friendship The wrong molding direction sliding sleeve is moved away from the interlocking sliding block or from the interlocking sliding block, and the cover half and mavable module core are after molding The fixture is clamped, and the cover half crosses the forming cavity for being molded the long handle with mavable module core, what the fixture was clamped The second end of short handle, which is stretched, to be placed in the forming cavity.The ejecting mechanism of the in-molded mold includes fixture thimble, the mouth of a river Thimble, auxiliary thimble, elastic component and top plate, the top plate are located in the ejection space and are included successively along the molding direction The first top plate and the second top plate being layered on top of each other, second top plate offer limit space, the fixture thimble, mouth of a river thimble And auxiliary thimble is installed on along molding direction arrangement, the mouth of a river thimble and auxiliary thimble is parallel on the top plate, institute The second end for stating mouth of a river thimble extends to the forming cavity and opposite with the mouth of a river, the auxiliary thimble extend to the forming cavity and with institute It states mouth of a river thimble neighbour to set, the first end of the fixture thimble is assembled in the limit space and selectively relatively described limiting It is slid in space, the second end of the fixture thimble is extended at the interlocking sliding block, and the elastic component perseverance, which has, drives the top Plate is toward the trend slid at the Bottom clamp plate；The fixture thimble, mouth of a river thimble and auxiliary top are driven simultaneously in the top plate During the product, fixture and interlocking sliding block are ejected the mavable module core by needle three, the top plate is produced because of the elastic component Raw flexible deformation and obtain along the retrogressing elastic force close to Bottom clamp plate direction sliding, the top plate extracts masterpiece in the rear It is retreated with the lower drive mouth of a river thimble and auxiliary thimble relative to the fixture thimble and is detached from the contact with the long handle, from And the fixture is allowed to be removed from the interlocking sliding block.

Preferably, the ejecting mechanism of the in-molded mold of the utility model further includes caging bolt, the limiting spiral shell Bolt is installed on along molding direction arrangement, the first end of the caging bolt is parallel on the top plate, the caging bolt Second end stretch out second top plate along close to the mavable module core direction, the elastic component is sheathed on the caging bolt, The mavable module core has the host cavity for the second end for accommodating the caging bolt；The fixture top is driven simultaneously in the top plate It is described during the product, fixture and interlocking sliding block are ejected the mavable module core by needle, mouth of a river thimble and auxiliary thimble three Caging bolt moves into the host cavity and the elastic component is made flexibly to press between the mavable module core and the top plate.

Preferably, the first end of the caging bolt is screwed in first top plate, second top plate is offered for institute The activity space of elastic component flexible deformation is stated, the second end of the caging bolt is pierced by the activity space, the elastic component position In in the activity space, the elastic component also stretches out the activity space.

Preferably, glide direction of the fixture on the interlocking sliding block and the molding direction are perpendicular.

Preferably, the auxiliary thimble is located at the fixture thimble and the mouth of a river thimble along the length direction of the product Between.

To realize above-mentioned purpose, the in-molded mold of the utility model is applicable in product of the molding with long/short handle.Institute The long handle that product includes prefabricated short handle and rear injection forming is stated, the first end of the short handle is stretched out along the length direction of the product The long handle.The in-molded mold includes cover half, fixture, dynamic model and aforementioned ejecting mechanism.Dynamic model edge molding side Molding direction is parallel to embedded in the mavable module core to the Bottom clamp plate being layered on top of each other, dynamic model cushion block, mavable module core and edge is included successively Interlocking sliding block that is interior or being moved away from from the mavable module core, the dynamic model cushion block are supported between the Bottom clamp plate and mavable module core, The dynamic model cushion block, Bottom clamp plate and mavable module core surround ejection space jointly, and the first end of short handle described in the clamp is simultaneously It is moved away from along the staggeredly molding direction sliding sleeve in the interlocking sliding block or from the interlocking sliding block, the cover half and mavable module core are closing The fixture is clamped after mould, and the cover half crosses the forming cavity for being molded the long handle with mavable module core, folded by the fixture The second end of tight short handle, which is stretched, to be placed in the forming cavity.

Compared with prior art, by the limit space on the auxiliary thimble of the utility model, elastic component and the second top plate, During product stripping, fixture thimble, mouth of a river thimble and auxiliary thimble three are driven simultaneously by top plate together by product, fixture And interlocking sliding block ejection mavable module core, at the same time, top plate is obtained due to elastic component generates flexible deformation along close to Bottom clamp plate side To the retrogressing elastic force of sliding, therefore product, fixture and interlocking sliding block are ejected into dynamic model in fixture thimble, mouth of a river thimble and auxiliary thimble Benevolence in place after, top plate at this time drives mouth of a river thimble and auxiliary thimble to be retreated relative to fixture thimble in the case where retreating elastic force effect, This is because fixture thimble persisted due to the limit space that the second top plate is opened up it is motionless, so as to make mouth of a river thimble and auxiliary thimble It is detached from contact with long handle and the taking-up for product provides avoiding space, therefore, operator person is along crisscrossing molding direction general Fixture together with product from interlocking sliding block remove when, mouth of a river thimble at this time and auxiliary thimble cannot when being detached from the contact with long handle Product surface is scratched, therefore the scuffing of product and bad obtain thoroughly solve to improve.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the product with long/short handle.

Fig. 2 is dimensional structure diagram of the in-molded mold of the utility model when not molding.

Fig. 3 is internal structure schematic diagram of the in-molded mold of the utility model after molding.

Fig. 4 is the in-molded mold of the utility model in the main view after hiding cover half and during the non-ejecting product of ejecting mechanism Figure.

Fig. 5 is main view of the in-molded mold of the utility model after cover half is hidden and during ejecting mechanism ejecting product Figure.

Fig. 6 is that the in-molded mold of the utility model regards on the right side after hiding cover half and during the non-ejecting product of ejecting mechanism Figure.

Fig. 7 is that the right side of the in-molded mold of the utility model after cover half is hidden and during ejecting mechanism ejecting product regards Figure.

Fig. 8 is three-dimensional knot of the in-molded mold of the utility model after cover half is hidden and during ejecting mechanism ejecting product Structure schematic diagram.

Fig. 9 is the dimensional structure diagram of the ejecting mechanism in the in-molded mold of the utility model.

Figure 10 is the sectional view of the ladder of ejecting mechanism shown in Fig. 9.

Specific embodiment

In order to which the technology contents of the utility model, construction feature is described in detail, below in conjunction with embodiment and coordinate attached drawing It is described further.

It please refers to Fig.1 to Fig.3, the in-molded mold 100 of the utility model is applicable in product of the molding with long/short handle 200.As shown in Figure 1, product 200 includes the long handle 220 of prefabricated short handle 210 and rear injection forming, the first end edge production of short handle 210 The length direction of product 200 stretches out long handle 220, i.e., is combined into one in the second end embedment long handle 220 of short handle 210 and with long handle 220 Body.

Wherein, the in-molded mold 100 of the utility model includes cover half 10, fixture 30, dynamic model 30 and ejecting mechanism 50. Dynamic model 20 includes the Bottom clamp plate 21 being layered on top of each other along molding direction (i.e. arrow A is signified in Fig. 2), dynamic model cushion block 22, moves successively Mode 23 and edge are parallel to molding direction embedded in the interlocking sliding block 24 that mavable module core 23 is interior or is moved away from from mavable module core 23.Dynamic model cushion block 22 are supported between Bottom clamp plate 21 and mavable module core 23, and Bottom clamp plate 21 and mavable module core 23 are supported；Dynamic model cushion block 22 moves Die holder plate 21 and mavable module core 23 surround ejection space 25 jointly.Fixture 30 clamps the first end of short handle 210 simultaneously along the molding side that interlocks It is moved away to (i.e. arrow B is signified in Fig. 2) sliding sleeve in interlocking sliding block 24 or from interlocking sliding block 24, is preferably that fixture 30 is slided in interlocking Glide direction and molding direction on block 24 is perpendicular, in order to which fixture 30 takes together with product 200 at interlocking sliding block 24 Go out.Cover half 10 and mavable module core 23 clamping fixture 30 after molding, as shown in Figure 3, and cover half 10 and mavable module core 23 cross use to state In the forming cavity 40 of molding long handle 220, the second end of short handle 210 that fixture 30 at this time is clamped, which is stretched, to be placed in forming cavity 40, To meet the purpose that short handle 210 and long handle 220 are combined into one.

With reference to Fig. 9 and Figure 10, the ejecting mechanism 50 (being collectively referred to as ejecting mechanism below) of in-molded mold includes folder Have thimble 51, mouth of a river thimble 52, auxiliary thimble 53, elastic component 54 and top plate 55.Top plate 55 is located in ejection space 25 and along conjunction Successively comprising the first top plate 551 and the second top plate 552 being layered on top of each other, the second top plate 552 offers limit space in mould direction 5521, preferably it is that the first top plate 551 is fixed together with the second top plate 552 by screw element, is selected certainly according to practical The modes such as welding, but not limited to this；Fixture thimble 51, mouth of a river thimble 52 and auxiliary thimble 53 along be parallel to molding direction arrangement, Mouth of a river thimble 52 and auxiliary thimble 53 are installed on top plate 55, the second end of mouth of a river thimble 52 extend to forming cavity 40 and with mouth of a river phase It is right, in order to which the condensate at the mouth of a river is ejected and broken by mouth of a river thimble 52；Auxiliary thimble 53 extends to forming cavity 40 and is pushed up with the mouth of a river 52 neighbour of needle sets, and is preferably, the length direction of auxiliary thimble 53 along product 200 be located at fixture thimble 51 and mouth of a river thimble 52 it Between, the mode that designs in this way can be efficiently reduced leaves thimble print on the surface of long handle 220, improves the matter on 200 surface of product Amount, but not limited to this；The first end of fixture thimble 51 is assembled in limit space 5521, so that fixture thimble 51 can selectivity Preset distance is slid in ground relative limit space 5521, such as 5 millimeters, 6 millimeters, 7 millimeters or 8 millimeters are differed, and are bases Actual conditions and flexible design, therefore do not illustrated and be limited with this；The second end of fixture thimble 51 extend to interlocking sliding block 24 at, with Interlocking sliding block 24 is ejected into mavable module core 23 in knockout course；54 perseverance of elastic component, which has, drives top plate 55 toward sliding at Bottom clamp plate 21 Trend.

As shown in Fig. 4 to Fig. 8, in 200 knockout course of product, the mandril pushing tow top plate 55 of injection molding machine is toward at mavable module core 23 It is mobile, so as to drive fixture thimble 51, mouth of a river thimble 52 and the 53 three movement of auxiliary thimble simultaneously by mobile top plate 55, pushing up Plate 55 drives fixture thimble 51, mouth of a river thimble 52 and auxiliary 53 three of thimble by product 200, fixture 30 and interlocking sliding block 24 simultaneously During ejecting mavable module core 23, top plate 55 obtains due to elastic component 54 generates flexible deformation to be slided along close to 21 direction of Bottom clamp plate The retrogressing elastic force of shifting, top plate 55 drive mouth of a river thimble 52 and auxiliary thimble 53 in the case where retreating elastic force effect relative to fixture thimble 51 Retreat and be detached from the contact with long handle 220, state as shown in Figure 5, so as to which fixture 30 be allowed to be removed from sliding block 24 is rabbeted, i.e. fixture 30 together with product 200 do along staggeredly molding direction from interlocking sliding block 24 on remove when, mouth of a river thimble 52 and auxiliary thimble 53 will not Scratch the surface of product 200.It is more specifically, as follows：

As shown in Fig. 3, Fig. 6, Fig. 7, Fig. 9 and Figure 10, in the present embodiment, ejecting mechanism 50 further includes caging bolt 56, Caging bolt 56 is installed on along molding direction arrangement, the first end of caging bolt 56 is parallel on top plate 55, is preferably to limit The first end of bolt 56 is screwed in the first top plate 551, in order to be assembled between 56 and first top plate 551 of caging bolt；Limit spiral shell The second end of bolt 56 stretches out the second top plate 552 along close to 23 direction of mavable module core；Elastic component 54 is sheathed on caging bolt 56, dynamic model Benevolence 23 has the host cavity (not shown) of the second end of receiving caging bolt 56.Therefore drive fixture thimble simultaneously in top plate 55 51st, product 200, fixture 30 and interlocking sliding block 24 are ejected the process of mavable module core 23 by mouth of a river thimble 52 and auxiliary 53 three of thimble In, caging bolt 56 moves into host cavity and elastic component 54 is made flexibly to press between mavable module core 23 and top plate 51 and generate retrogressing Elastic force so that top plate 55 by elastic component 54 enables top plate 55 first to drive mouth of a river thimble 52 in ejecting product 200 after in place And auxiliary thimble 53 retreats pre-determined distance, such as 6 millimeters, 7 millimeters or 8 millimeters, and fixture thimble 51 is temporary due to limit space 5521 It stays motionless.Wherein, to ensure the reliability of 54 deformation of elastic component, therefore the second top plate 552 is offered for 54 flexible deformation of elastic component Activity space 5522, the second end of caging bolt 56 is pierced by activity space 5522, and elastic component 54 is located in activity space 5522, Elastic component 54 also stretches out activity space 5522, is preferably, elastic component 54 be a compressed spring, but it is unlimited this in.For example, Fixture thimble 51, mouth of a river thimble 52 and auxiliary thimble 53 are respectively T-bar, i.e. fixture thimble 51, mouth of a river thimble 52 and auxiliary thimble 53 first end has T connector, in order to which fixture thimble 51 in limit space 5521 in doing locating slip, prevents fixture thimble 51 Limit space 5521 is skidded off along molding direction is parallel to；Equally, it is clamping by the T connector of mouth of a river thimble 52 and auxiliary thimble 53 Between the first top plate 551 and the second top plate 552, but not limited to this.It will be appreciated that in other embodiments, can incite somebody to action Elastic component 54 is set as extension spring, and extension spring is connected on top plate 55 and dynamic model 20 so that extension spring is ejected in top plate 55 Product 200 in place when, extension spring at this time can cause top plate 55 to retreat preset distance, so that mouth of a river thimble 52 And auxiliary thimble 53 persists motionless fixture thimble 51 and retreats pre-determined distance relatively, is detached from mouth of a river thimble 52 and auxiliary thimble 53 With the contact of long handle 220.

Compared with prior art, by the limit on the auxiliary thimble 53 of the utility model, 54 and second top plate 552 of elastic component In 200 knockout course of product, fixture thimble 51, mouth of a river thimble 52 and auxiliary top are driven by top plate 55 simultaneously for bit space 5521 Product 200, fixture 30 and interlocking sliding block 24 are ejected mavable module core 23 by 53 three of needle together, and at the same time, top plate 55 is because of elastic component 54 generate flexible deformations and obtain along the retrogressing elastic force close to the sliding of 21 direction of Bottom clamp plate, therefore are pushed up at fixture thimble 51, the mouth of a river After product 200, fixture 30 and interlocking sliding block 24 are ejected mavable module core 23 in place by needle 52 and auxiliary thimble 53, top plate 55 at this time exists It retreats the lower drive mouth of a river thimble 52 of elastic force effect and auxiliary thimble 53 is retreated relative to fixture thimble 51, this is because fixture thimble 51 persisted due to the limit space 5521 that the second top plate 552 is opened up it is motionless, so as to make mouth of a river thimble 52 and auxiliary thimble 53 de- From the contact with long handle 220, the taking-up for product 200 provides avoiding space, and therefore, operator person crisscrosses molding side on edge To by fixture 30 together with product 200 from interlocking sliding block 24 remove when, mouth of a river thimble 52 at this time and auxiliary thimble 53 because be detached from The contact of long handle 220 and 200 surface of product cannot be scratched, therefore the scuffing of product 200 and bad thoroughly solve to improve.

Above disclosed is only the preferred embodiments of the utility model, it is impossible to the power of the utility model is limited with this Sharp range, therefore the equivalent variations made according to the utility model claims belong to the range that the utility model is covered.

Claims (6)

1. a kind of ejecting mechanism of in-molded mold, for being molded the product with long/short handle, the product includes prefabricated Short handle and rear injection forming long handle, the length direction of the first end of the short handle along the product stretches out the long handle, described In-molded mold includes cover half, fixture and dynamic model, the dynamic model along molding direction successively comprising the Bottom clamp plate being layered on top of each other, Dynamic model cushion block, mavable module core and edge are parallel to molding direction and are slided embedded in the interlocking that the mavable module core is interior or is moved away from from the mavable module core Block, the dynamic model cushion block are supported between the Bottom clamp plate and mavable module core, and the dynamic model cushion block, Bottom clamp plate and mavable module core are total to With ejection space is surrounded, the first end of short handle described in the clamp and edge interlock the molding direction sliding sleeve in the interlocking Sliding block is moved away from from the interlocking sliding block, and the cover half and mavable module core clamp the fixture, and the cover half is with moving after molding Mode crosses the forming cavity for being molded the long handle, and the second end for the short handle that the fixture is clamped, which is stretched, is placed in the forming cavity It is interior, which is characterized in that the ejecting mechanism of the in-molded mold includes fixture thimble, mouth of a river thimble, auxiliary thimble, elasticity Part and top plate, the top plate are located in the ejection space and along the molding direction successively comprising the first top plate being layered on top of each other With the second top plate, second top plate offers limit space, and the fixture thimble, mouth of a river thimble and auxiliary thimble edge are parallel to Molding direction arrangement, the mouth of a river thimble and auxiliary thimble are installed on the top plate, the second end of the mouth of a river thimble The forming cavity and opposite with the mouth of a river is extended to, the auxiliary thimble extends to the forming cavity and set with the mouth of a river thimble neighbour, institute The first end for stating fixture thimble is assembled in the limit space and selectively sliding, the folder in relatively described limit space The second end of tool thimble is extended at the interlocking sliding block, and the elastic component perseverance, which has, drives the top plate toward at the Bottom clamp plate The trend of sliding；The fixture thimble, mouth of a river thimble and auxiliary thimble three are driven simultaneously by the product, folder in the top plate During tool and interlocking sliding block eject the mavable module core, the top plate obtains edge due to the elastic component generates flexible deformation and leans on The retrogressing elastic force of the nearly Bottom clamp plate direction sliding, the top plate extracts in the rear, and power effect is lower to drive the mouth of a river thimble It is retreated relative to the fixture thimble with auxiliary thimble and is detached from the contact with the long handle, so as to allow the fixture from described Interlocking sliding block is removed.

2. the ejecting mechanism of in-molded mold according to claim 1, which is characterized in that caging bolt is further included, The caging bolt is installed on along molding direction arrangement, the first end of the caging bolt is parallel on the top plate, institute The second end for stating caging bolt stretches out second top plate along close to the mavable module core direction, and the elastic component is sheathed on the limit On the bolt of position, the mavable module core has the host cavity for the second end for accommodating the caging bolt；Institute is driven simultaneously in the top plate State the mistake that the product, fixture and interlocking sliding block are ejected the mavable module core by fixture thimble, mouth of a river thimble and auxiliary thimble three Cheng Zhong, the caging bolt move into the host cavity and the elastic component are made flexibly to press on the mavable module core and the top plate Between.

3. the ejecting mechanism of in-molded mold according to claim 2, which is characterized in that the of the caging bolt One end is screwed in first top plate, and second top plate offers the activity space for the elastic component flexible deformation, described The second end of caging bolt is pierced by the activity space, and the elastic component is located in the activity space, and the elastic component is also stretched Go out the activity space.

4. the ejecting mechanism of in-molded mold according to claim 1, which is characterized in that the fixture is described embedding It connects glide direction on sliding block and the molding direction is perpendicular.

5. the ejecting mechanism of in-molded mold according to claim 1, which is characterized in that described to assist thimble along institute The length direction of product is stated between the fixture thimble and the mouth of a river thimble.

6. a kind of in-molded mold, is applicable in product of the molding with long/short handle, the product includes prefabricated short handle and rear note Molding long handle, the first end of the short handle stretch out the long handle, the in-molded mold along the length direction of the product Including cover half, fixture and dynamic model, the dynamic model includes the Bottom clamp plate being layered on top of each other along molding direction, dynamic model cushion block, moves successively Mode and edge are parallel to molding direction embedded in the interlocking sliding block that the mavable module core is interior or is moved away from from the mavable module core, the dynamic model Cushion block is supported between the Bottom clamp plate and mavable module core, and the dynamic model cushion block, Bottom clamp plate and mavable module core surround ejection jointly Space, the first end of short handle described in the clamp and along the staggeredly molding direction sliding sleeve in the interlocking sliding block or from institute It states interlocking sliding block to be moved away from, the cover half and mavable module core clamp the fixture, and the cover half crosses use with mavable module core after molding In the forming cavity for being molded the long handle, the second end for the short handle that the fixture is clamped, which is stretched, to be placed in the forming cavity, feature It is, the in-molded mold further includes the ejector according to any one of claim 1 to the 5 in-molded mold Structure.